third_party/chromium/media/gpu/v4l2/v4l2_image_processor_backend.h - cobalt - Git at Google

 // Copyright 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef MEDIA_GPU_V4L2_V4L2_IMAGE_PROCESSOR_BACKEND_H_
 #define MEDIA_GPU_V4L2_V4L2_IMAGE_PROCESSOR_BACKEND_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <memory>
 #include <vector>

 #include <linux/videodev2.h>

 #include "base/containers/queue.h"
 #include "base/macros.h"
 #include "base/memory/scoped_refptr.h"
 #include "base/memory/weak_ptr.h"
 #include "base/sequence_checker.h"
 #include "base/sequenced_task_runner.h"
 #include "base/single_thread_task_runner.h"
 #include "media/gpu/chromeos/image_processor_backend.h"
 #include "media/gpu/media_gpu_export.h"
 #include "media/gpu/v4l2/v4l2_device.h"
 #include "third_party/abseil-cpp/absl/types/optional.h"
 #include "ui/gfx/geometry/size.h"

 namespace media {

 // Handles image processing accelerators that expose a V4L2 memory-to-memory
 // interface. The threading model of this class is the same as for other V4L2
 // hardware accelerators (see V4L2VideoDecodeAccelerator) for more details.
 class MEDIA_GPU_EXPORT V4L2ImageProcessorBackend
     : public ImageProcessorBackend {
  public:
   // Factory method to create V4L2ImageProcessorBackend to convert from
   // input_config to output_config. The number of input buffers and output
   // buffers will be |num_buffers|. Provided |error_cb| will be posted to the
   // same thread Create() is called if an error occurs after initialization.
   // Returns nullptr if V4L2ImageProcessorBackend fails to create.
   // Note: output_mode will be removed once all its clients use import mode.
   // TODO(crbug.com/917798): remove |device| parameter once
   //     V4L2VideoDecodeAccelerator no longer creates and uses
   //     |image_processor_device_| before V4L2ImageProcessorBackend is created.
   static std::unique_ptr<ImageProcessorBackend> Create(
       scoped_refptr<V4L2Device> device,
       size_t num_buffers,
       const PortConfig& input_config,
       const PortConfig& output_config,
       const std::vector<OutputMode>& preferred_output_modes,
       VideoRotation relative_rotation,
       ErrorCB error_cb,
       scoped_refptr<base::SequencedTaskRunner> backend_task_runner);

   // ImageProcessor implementation.
   void Process(scoped_refptr<VideoFrame> input_frame,
                scoped_refptr<VideoFrame> output_frame,
                FrameReadyCB cb) override;
   void ProcessLegacy(scoped_refptr<VideoFrame> frame,
                      LegacyFrameReadyCB cb) override;
   void Reset() override;

   // Returns true if image processing is supported on this platform.
   static bool IsSupported();

   // Returns a vector of supported input formats in fourcc.
   static std::vector<uint32_t> GetSupportedInputFormats();

   // Returns a vector of supported output formats in fourcc.
   static std::vector<uint32_t> GetSupportedOutputFormats();

   // Gets output allocated size and number of planes required by the device
   // for conversion from |input_pixelformat| with |input_size| to
   // |output_pixelformat| with expected |output_size|.
   // On success, returns true with adjusted |output_size| and |num_planes|.
   // On failure, returns false without touching |output_size| and |num_planes|.
   static bool TryOutputFormat(uint32_t input_pixelformat,
                               uint32_t output_pixelformat,
                               const gfx::Size& input_size,
                               gfx::Size* output_size,
                               size_t* num_planes);

  private:
   friend struct std::default_delete<V4L2ImageProcessorBackend>;

   // Callback for initialization.
   using InitCB = base::OnceCallback<void(bool)>;

   // Job record. Jobs are processed in a FIFO order. |input_frame| will be
   // processed and the result written into |output_frame|. Once processing is
   // complete, |ready_cb| or |legacy_ready_cb| will be called depending on which
   // Process() method has been used to create that JobRecord.
   struct JobRecord {
     JobRecord();
     ~JobRecord();
     scoped_refptr<VideoFrame> input_frame;
     FrameReadyCB ready_cb;
     LegacyFrameReadyCB legacy_ready_cb;
     scoped_refptr<VideoFrame> output_frame;
     size_t output_buffer_id;
   };

   static std::unique_ptr<ImageProcessorBackend> CreateWithOutputMode(
       scoped_refptr<V4L2Device> device,
       size_t num_buffers,
       const PortConfig& input_config,
       const PortConfig& output_config,
       const OutputMode& preferred_output_modes,
       VideoRotation relative_rotation,
       ErrorCB error_cb,
       scoped_refptr<base::SequencedTaskRunner> backend_task_runner);

   V4L2ImageProcessorBackend(
       scoped_refptr<base::SequencedTaskRunner> backend_task_runner,
       scoped_refptr<V4L2Device> device,
       const PortConfig& input_config,
       const PortConfig& output_config,
       v4l2_memory input_memory_type,
       v4l2_memory output_memory_type,
       OutputMode output_mode,
       VideoRotation relative_rotation,
       size_t num_buffers,
       ErrorCB error_cb);
   ~V4L2ImageProcessorBackend() override;
   void Destroy() override;
   // Stop all processing on |poll_task_runner_|.
   void DestroyOnPollSequence();

   // Initialize on |backend_task_runner_|. After finished, call |init_cb|
   // with the result whether initialization is successful or not
   void Initialize(InitCB init_cb);
   void EnqueueInput(const JobRecord* job_record, V4L2WritableBufferRef buffer);
   void EnqueueOutput(JobRecord* job_record, V4L2WritableBufferRef buffer);
   void Dequeue();
   bool EnqueueInputRecord(const JobRecord* job_record,
                           V4L2WritableBufferRef buffer);
   bool EnqueueOutputRecord(JobRecord* job_record, V4L2WritableBufferRef buffer);
   bool CreateInputBuffers();
   bool CreateOutputBuffers();
   // Specify |visible_rect| to v4l2 |type| queue.
   bool ApplyCrop(const gfx::Rect& visible_rect, enum v4l2_buf_type type);
   // Reconfigure |size| and |visible_rect| to v4l2 |type| queue.
   bool ReconfigureV4L2Format(const gfx::Size& size,
                              const gfx::Rect& visible_rect,
                              enum v4l2_buf_type type);

   // Callback of VideoFrame destruction. Since VideoFrame destruction
   // callback might be executed on any sequence, we use a thunk to post the
   // task to |device_task_runner_|.
   static void V4L2VFRecycleThunk(
       scoped_refptr<base::SequencedTaskRunner> task_runner,
       absl::optional<base::WeakPtr<V4L2ImageProcessorBackend>> image_processor,
       V4L2ReadableBufferRef buf);
   void V4L2VFRecycleTask(V4L2ReadableBufferRef buf);

   void NotifyError();

   // ImageProcessor implementation.
   void ProcessJobsTask();
   void ServiceDeviceTask();

   // Ran on |poll_task_runner_| to wait for device events.
   void DevicePollTask(bool poll_device);

   const v4l2_memory input_memory_type_;
   const v4l2_memory output_memory_type_;

   // V4L2 device in use.
   scoped_refptr<V4L2Device> device_;

   // All the below members are to be accessed from |device_task_runner_| only
   // (if it's running).
   base::queue<std::unique_ptr<JobRecord>> input_job_queue_;
   base::queue<std::unique_ptr<JobRecord>> running_jobs_;

   scoped_refptr<V4L2Queue> input_queue_;
   scoped_refptr<V4L2Queue> output_queue_;

   // The number of input or output buffers.
   const size_t num_buffers_;

   // Sequence and its checker used to poll the V4L2 for events only.
   scoped_refptr<base::SingleThreadTaskRunner> poll_task_runner_;
   SEQUENCE_CHECKER(poll_sequence_checker_);

   // WeakPtr bound to |backend_task_runner_|.
   base::WeakPtr<V4L2ImageProcessorBackend> backend_weak_this_;
   // WeakPtr bound to |poll_task_runner_|.
   base::WeakPtr<V4L2ImageProcessorBackend> poll_weak_this_;
   base::WeakPtrFactory<V4L2ImageProcessorBackend> backend_weak_this_factory_{
       this};
   base::WeakPtrFactory<V4L2ImageProcessorBackend> poll_weak_this_factory_{this};

   DISALLOW_COPY_AND_ASSIGN(V4L2ImageProcessorBackend);
 };

 }  // namespace media

 namespace std {

 template <>
 struct default_delete<media::V4L2ImageProcessorBackend>
     : public default_delete<media::ImageProcessorBackend> {};

 }  // namespace std

 #endif  // MEDIA_GPU_V4L2_V4L2_IMAGE_PROCESSOR_BACKEND_H_
	// Copyright 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef MEDIA_GPU_V4L2_V4L2_IMAGE_PROCESSOR_BACKEND_H_
	#define MEDIA_GPU_V4L2_V4L2_IMAGE_PROCESSOR_BACKEND_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <memory>
	#include <vector>

	#include <linux/videodev2.h>

	#include "base/containers/queue.h"
	#include "base/macros.h"
	#include "base/memory/scoped_refptr.h"
	#include "base/memory/weak_ptr.h"
	#include "base/sequence_checker.h"
	#include "base/sequenced_task_runner.h"
	#include "base/single_thread_task_runner.h"
	#include "media/gpu/chromeos/image_processor_backend.h"
	#include "media/gpu/media_gpu_export.h"
	#include "media/gpu/v4l2/v4l2_device.h"
	#include "third_party/abseil-cpp/absl/types/optional.h"
	#include "ui/gfx/geometry/size.h"

	namespace media {

	// Handles image processing accelerators that expose a V4L2 memory-to-memory
	// interface. The threading model of this class is the same as for other V4L2
	// hardware accelerators (see V4L2VideoDecodeAccelerator) for more details.
	class MEDIA_GPU_EXPORT V4L2ImageProcessorBackend
	: public ImageProcessorBackend {
	public:
	// Factory method to create V4L2ImageProcessorBackend to convert from
	// input_config to output_config. The number of input buffers and output
	// buffers will be \|num_buffers\|. Provided \|error_cb\| will be posted to the
	// same thread Create() is called if an error occurs after initialization.
	// Returns nullptr if V4L2ImageProcessorBackend fails to create.
	// Note: output_mode will be removed once all its clients use import mode.
	// TODO(crbug.com/917798): remove \|device\| parameter once
	// V4L2VideoDecodeAccelerator no longer creates and uses
	// \|image_processor_device_\| before V4L2ImageProcessorBackend is created.
	static std::unique_ptr<ImageProcessorBackend> Create(
	scoped_refptr<V4L2Device> device,
	size_t num_buffers,
	const PortConfig& input_config,
	const PortConfig& output_config,
	const std::vector<OutputMode>& preferred_output_modes,
	VideoRotation relative_rotation,
	ErrorCB error_cb,
	scoped_refptr<base::SequencedTaskRunner> backend_task_runner);

	// ImageProcessor implementation.
	void Process(scoped_refptr<VideoFrame> input_frame,
	scoped_refptr<VideoFrame> output_frame,
	FrameReadyCB cb) override;
	void ProcessLegacy(scoped_refptr<VideoFrame> frame,
	LegacyFrameReadyCB cb) override;
	void Reset() override;

	// Returns true if image processing is supported on this platform.
	static bool IsSupported();

	// Returns a vector of supported input formats in fourcc.
	static std::vector<uint32_t> GetSupportedInputFormats();

	// Returns a vector of supported output formats in fourcc.
	static std::vector<uint32_t> GetSupportedOutputFormats();

	// Gets output allocated size and number of planes required by the device
	// for conversion from \|input_pixelformat\| with \|input_size\| to
	// \|output_pixelformat\| with expected \|output_size\|.
	// On success, returns true with adjusted \|output_size\| and \|num_planes\|.
	// On failure, returns false without touching \|output_size\| and \|num_planes\|.
	static bool TryOutputFormat(uint32_t input_pixelformat,
	uint32_t output_pixelformat,
	const gfx::Size& input_size,
	gfx::Size* output_size,
	size_t* num_planes);

	private:
	friend struct std::default_delete<V4L2ImageProcessorBackend>;

	// Callback for initialization.
	using InitCB = base::OnceCallback<void(bool)>;

	// Job record. Jobs are processed in a FIFO order. \|input_frame\| will be
	// processed and the result written into \|output_frame\|. Once processing is
	// complete, \|ready_cb\| or \|legacy_ready_cb\| will be called depending on which
	// Process() method has been used to create that JobRecord.
	struct JobRecord {
	JobRecord();
	~JobRecord();
	scoped_refptr<VideoFrame> input_frame;
	FrameReadyCB ready_cb;
	LegacyFrameReadyCB legacy_ready_cb;
	scoped_refptr<VideoFrame> output_frame;
	size_t output_buffer_id;
	};

	static std::unique_ptr<ImageProcessorBackend> CreateWithOutputMode(
	scoped_refptr<V4L2Device> device,
	size_t num_buffers,
	const PortConfig& input_config,
	const PortConfig& output_config,
	const OutputMode& preferred_output_modes,
	VideoRotation relative_rotation,
	ErrorCB error_cb,
	scoped_refptr<base::SequencedTaskRunner> backend_task_runner);

	V4L2ImageProcessorBackend(
	scoped_refptr<base::SequencedTaskRunner> backend_task_runner,
	scoped_refptr<V4L2Device> device,
	const PortConfig& input_config,
	const PortConfig& output_config,
	v4l2_memory input_memory_type,
	v4l2_memory output_memory_type,
	OutputMode output_mode,
	VideoRotation relative_rotation,
	size_t num_buffers,
	ErrorCB error_cb);
	~V4L2ImageProcessorBackend() override;
	void Destroy() override;
	// Stop all processing on \|poll_task_runner_\|.
	void DestroyOnPollSequence();

	// Initialize on \|backend_task_runner_\|. After finished, call \|init_cb\|
	// with the result whether initialization is successful or not
	void Initialize(InitCB init_cb);
	void EnqueueInput(const JobRecord* job_record, V4L2WritableBufferRef buffer);
	void EnqueueOutput(JobRecord* job_record, V4L2WritableBufferRef buffer);
	void Dequeue();
	bool EnqueueInputRecord(const JobRecord* job_record,
	V4L2WritableBufferRef buffer);
	bool EnqueueOutputRecord(JobRecord* job_record, V4L2WritableBufferRef buffer);
	bool CreateInputBuffers();
	bool CreateOutputBuffers();
	// Specify \|visible_rect\| to v4l2 \|type\| queue.
	bool ApplyCrop(const gfx::Rect& visible_rect, enum v4l2_buf_type type);
	// Reconfigure \|size\| and \|visible_rect\| to v4l2 \|type\| queue.
	bool ReconfigureV4L2Format(const gfx::Size& size,
	const gfx::Rect& visible_rect,
	enum v4l2_buf_type type);

	// Callback of VideoFrame destruction. Since VideoFrame destruction
	// callback might be executed on any sequence, we use a thunk to post the
	// task to \|device_task_runner_\|.
	static void V4L2VFRecycleThunk(
	scoped_refptr<base::SequencedTaskRunner> task_runner,
	absl::optional<base::WeakPtr<V4L2ImageProcessorBackend>> image_processor,
	V4L2ReadableBufferRef buf);
	void V4L2VFRecycleTask(V4L2ReadableBufferRef buf);

	void NotifyError();

	// ImageProcessor implementation.
	void ProcessJobsTask();
	void ServiceDeviceTask();

	// Ran on \|poll_task_runner_\| to wait for device events.
	void DevicePollTask(bool poll_device);

	const v4l2_memory input_memory_type_;
	const v4l2_memory output_memory_type_;

	// V4L2 device in use.
	scoped_refptr<V4L2Device> device_;

	// All the below members are to be accessed from \|device_task_runner_\| only
	// (if it's running).
	base::queue<std::unique_ptr<JobRecord>> input_job_queue_;
	base::queue<std::unique_ptr<JobRecord>> running_jobs_;

	scoped_refptr<V4L2Queue> input_queue_;
	scoped_refptr<V4L2Queue> output_queue_;

	// The number of input or output buffers.
	const size_t num_buffers_;

	// Sequence and its checker used to poll the V4L2 for events only.
	scoped_refptr<base::SingleThreadTaskRunner> poll_task_runner_;
	SEQUENCE_CHECKER(poll_sequence_checker_);

	// WeakPtr bound to \|backend_task_runner_\|.
	base::WeakPtr<V4L2ImageProcessorBackend> backend_weak_this_;
	// WeakPtr bound to \|poll_task_runner_\|.
	base::WeakPtr<V4L2ImageProcessorBackend> poll_weak_this_;
	base::WeakPtrFactory<V4L2ImageProcessorBackend> backend_weak_this_factory_{
	this};
	base::WeakPtrFactory<V4L2ImageProcessorBackend> poll_weak_this_factory_{this};

	DISALLOW_COPY_AND_ASSIGN(V4L2ImageProcessorBackend);
	};

	} // namespace media

	namespace std {

	template <>
	struct default_delete<media::V4L2ImageProcessorBackend>
	: public default_delete<media::ImageProcessorBackend> {};

	} // namespace std

	#endif // MEDIA_GPU_V4L2_V4L2_IMAGE_PROCESSOR_BACKEND_H_